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16.14 Epoxides in Biological Processes

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1 16.14 Epoxides in Biological Processes

2 Naturally Occurring Epoxides
are common are involved in numerous biological processes

3 Biosynthesis of Epoxides
C + O2 H+ + NADH enzyme C C + H2O + NAD+ O enzyme-catalyzed oxygen transfer from O2 to alkene enzymes are referred to as monooxygenases

4 Example: biological epoxidation of squalene
O2, NADH monoxygenase O this reaction is an important step in the biosynthesis of cholesterol

5 16.15 Preparation of Sulfides

6 prepared by nucleophilic substitution (SN2)
Preparation of RSR' prepared by nucleophilic substitution (SN2) •• • • •• R S R' R S + R' X NaSCH3 CH3CHCH CH2 Cl CH3CHCH CH2 SCH3 methanol

7 16.16 Oxidation of Sulfides: Sulfoxides and Sulfones

8 Oxidation of RSR' R S R' O – + O – ++ R S R' R S R' O – sulfide
•• R S R' O • • + O • • •• ++ •• R S R' R S R' O • • •• sulfide sulfoxide sulfone either the sulfoxide or the sulfone can be isolated depending on the oxidizing agent and reaction conditions

9 Sodium metaperiodate oxidizes sulfides to sulfoxides and no further.
Example •• SCH3 O • • + •• SCH3 NaIO4 water (91%) Sodium metaperiodate oxidizes sulfides to sulfoxides and no further.

10 Example 1 equiv of H2O2 or a peroxy acid gives a sulfoxide, 2 equiv give a sulfone •• SCH CH2 SCH O • • •• ++ CH2 H2O2 (2 equiv) (74-78%)

11 16.17 Alkylation of Sulfides: Sulfonium Salts

12 Sulfides can act as nucleophiles
+ •• •• R S + R" X R S R" X– • • R' R' product is a sulfonium salt

13 Example CH3I + CH3(CH2)10CH2SCH3 CH3(CH2)10CH2SCH3 I– CH3

14 Section 16.18 Spectroscopic Analysis of Ethers

15 Infrared Spectroscopy
C—O stretching: and 1150 cm-1 (strong) 6

16 Figure 16.8 Infrared Spectrum of Dipropyl Ether
CH3CH2CH2OCH2CH2CH3 C—O—C 2000 3500 3000 2500 1000 1500 500 Wave number, cm-1 Francis A. Carey, Organic Chemistry, Fourth Edition. Copyright © 2000 The McGraw-Hill Companies, Inc. All rights reserved. 8

17 H—C—O proton is deshielded by O; range is ca. d 3.3-4.0 ppm.
1H NMR H—C—O proton is deshielded by O; range is ca. d ppm. d 1.4 ppm d 0.8 ppm d 0.8 ppm CH3 CH2 CH2 OCH2 CH2 CH3 d 3.2 ppm 6

18 Figure 16.9 (page 642) CH3 CH2 CH2 OCH2 CH2 CH3 1
1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 9.0 10.0 Chemical shift (d, ppm) 1

19 Carbons of C—O—C appear in the range d 57-87 ppm.
13C NMR Carbons of C—O—C appear in the range d ppm. 26.0 ppm O 68.0 ppm

20 UV-VIS Simple ethers have their absorption maximum at about 185 nm and are transparent to ultraviolet radiation above about 220 nm.

21 Mass Spectrometry Molecular ion fragments to give oxygen-stabilized carbocation. •+ CH3CH2O CHCH2CH3 m/z 102 •• CH3 + + CH3CH2O CH CH3CH2O CHCH2CH3 •• •• m/z 73 CH3 m/z 87

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